【Lin Lab Yunlin University of Science and Technology,Taiwan】

01. W. J. Liu, Y. H. Chang, H. J. You, Y. T. Chen*, C. L. Fern, X. T. Lin, and S. H. Lin, “Role of surface roughness in determining surface energy and magnetic properties of Fe80Ce20 films during thermal processing on Si(100) and Glass substrates", Ceramics International, vol. 50, 22C, pp. 48497-48507, 2024. 11(SCIE 2023 IF=5.1, MATERIALS SCIENCE, CERAMICS, MOST105-2112-M-224-001. 3/31=9.68%)
02. W. J. Liu, Y. H. Chang, C. C. Chiang, S. T. Hsu, C. L. Fern, Y. T. Chen*, S. S. Ma, W. K.Wang, and S. H. Lin, “Influence of surface roughness and annealing on the structural, optical, electrical, and magnetic properties of Co40Fe40Dy20 thin films deposited on glass substrate", Ceramics International, vol. 50, 21A, pp. 40678-40689, Nov 2024 (SCIE, 2023 IF=5.1, MATERIALS SCIENCE, CERAMICS 3/31=9.68%)
03. W. J. Liu, Y. H. Chang, C. C. Chiang, Y. T. Chen*, C. C. Lin, Y. C. Liao, and S. H. Lin, “Effect of annealing and roughness on the magnetic-optical, adhesive, nano-mechanical, and electrical properties of Co60Fe20Dy20 films" Results in Optics, vol. 16, pp. 100636, 1-10, Sep 2024
04. W. J. Liu, Y. H. Chang, S. T. Hsu, C. L. Fern, Y. T. Chen*, S. Y. Tsao, and S. H. Lin, “Exploring the correlation between surface roughness, surface energy, nano-indentation, electrical properties, and magnetic characteristics of annealed Co40Fe40Dy20 thin films deposited on Si(100) substrates", Journal of Electronic Materials, vol. 53, issue 8, pp. 4498-4511, 2024, Aug 2024 (SCIE, 2023 IF=2.2, ENGINEERING, ELECTRICAL & ELECTRONIC 183/352=51.99%)
05. Chen-Chen Yang, Pi-Yu Shen, Hsin-Yuan Miao, Chia-Yi Huang, Shih-Hung Lin, Jun-Hong Weng, Lakshmanan Saravanan and Jih-Hsin Liu*, “Enhancing the Photoelectric Properties of Flexible Carbon Nanotube Paper by Plasma Gradient Modification and Gradient Illumination" Processes, Volume 12(7), 1449, Jul. 2024 (SCIE, 2023 IF=2.800, ENGINEERING, CHEMICAL 80/170=47.06%)
06. W. J. Liu, Y. H. Chang, C. C. Chiang, Y. T. Chen*, C. C. Lin, P. L. Chen, and Shih-Hung Lin, “Effect of Surface Roughness on the Magnetism, Nano-indentation, Surface Energy, and Electrical Property of Co60Fe20Dy20 Films on Si (100) substrate”, Journal of Electronic Materials, Vol. 53, Issue 4, pp. 1752-1762, Apr 2024 (SCIE, 2023 IF=2.2, ENGINEERING, ELECTRICAL & ELECTRONIC 183/352=51.99%)
07. Shih-Hung Lin, Yuan-Ting Wang, and Yao-Chin Wang, “Machine Learning Techniques Applied to Develop Flexible Electronic Anti-Reflective Film”, Sensors and Materials, Vol. 36, No. 1 (2024), 17-23, Jan. 2024 (SCIE, 2023 IF=1.000, INSTRUMENTS & INSTRUMENTATION: 62/76=81.6%)
08. Chi-Lon Fern, Wen-Jen Liu, Yung-Huang Chang, Chia-Chin Chiang, Jian-Xin Lai, Yuan-Tsung Chen, Wei-Guan Chen, Te-Ho Wu, Shih-Hung Lin and Ko-Wei Lin “Studying the Crucial Physical Characteristics Related to Surface Roughness and Magnetic Domain Structure in CoFeSm Thin Films”, Coatings, Vol.13 (11), 1961, Nov. 2023 (SCIE, 2022 IF=3.400, PHYSICS, APPLIED: 57/160=35.63%)
09. Chi-Lon Fern, Wen-Jen Liu, Chia-Chin Chiang, Yung-Huang Chang, Yuan-Tsung Chen, Yu-Zhi Wang, Jia-Wei Liu, Shih-Hung Lin Ko-Wei Lin and Sin-Liang Ou “The Relationship between Annealing Temperatures and Surface Roughness in Shaping the Physical Characteristics of Co40Fe40B10Dy10 Thin Films”, Coatings, Vol.13 (11), 1895, Nov. 2023 (SCIE, 2022 IF=3.400, PHYSICS, APPLIED: 57/160=35.63%)
10. Chi-Lon Fern, Wen-Jen Liu, Yung-Huang Chang, Chia-Chin Chiang, Yuan-Tsung Chen, Pei-Xin Lu, Xuan-Ming Su, Shih-Hung Lin and Ko-Wei Lin, “Surface Roughness-Induced Changes in Important Physical Features of CoFeSm Thin Films on Glass Substrates during Annealing”, Materials, Vol. 16 (21)6989, Oct. 2023 (SCIE, 2022 IF=3.400, METALLURGY & METALLURGICAL ENGINEERING: 20/78=25.64%)
11. Wen-Jen Liu, Yung-Huang Chang, Chia-Chin Chiang, Yuan-Tsung Chen, Pei-Xin Lu, Yu-Jie He and Shih-Hung Lin, “Studying the Effects of Annealing and Surface Roughness on Both the Magnetic Property and Surface Energy of Co60Fe20Sm20 Thin Films on Si(100) Substrate”, Coatings, Vol.13 (10), 1783, Oct. 2023 (SCIE, 2022 IF=3.400, PHYSICS, APPLIED: 57/160=35.63%)
12. Wen-Jen Liu, Yung-Huang Chang, Chia-Chin Chiang, Yuan-Tsung Chen*, Yu-Zhi Wang, Chueh-Lin Wu, Shih-Hung Lin and Sin-Liang Ou, “Thickness, Annealing, and Surface Roughness Effect on Magnetic and Significant Properties of Co40Fe40B10Dy10 Thin Films”, Materials, Vol. 16 (17)5995, August 2023 (SCIE, 2022 IF=3.400, METALLURGY & METALLURGICAL ENGINEERING: 20/78=25.64%)
13. Wen-Jen Liu, Yung-Huang Chang, Chia-Chin Chiang, Jian-Xin Lai, Yuan-Tsung Chen*, Hsiung-Liang Chen, and Shih-Hung Lin, Po-Wei Chi, “Investigation of Sm Addition on Microstructural and Optical Properties of CoFe Thin Films”, Materials, Vol. 16 (15)5380, July 2023 (SCIE, 2022 IF=3.400, METALLURGY & METALLURGICAL ENGINEERING: 20/78=25.64%)
14. Wen-Jen Liu, Yung-Huang Chang, Chia-Chin Chiang, Yuan-Tsung Chen*, Ying-Hsuan Chen, Hui-Jun Yo, Te-Ho Wu, Shih-Hung Lin, Po-Wei Chi, “The Influence of Oxidation on the Magnetic, Electrical, and Mechanical Properties of Co40Fe40Yb20 Films”, Materials, Vol. 15 (23)8675, Dec. 2022 (SCIE, 2021 IF=3.748, METALLURGY & METALLURGICAL ENGINEERING: 18/79=22.8%)
15. Wen-Jen Liu, Yung-Huang Chang, Chia-Chin Chiang, Yuan-Tsung Chen*, Ying-Hsuan Chen, Hao-Wen Liao, Te-Ho Wu, Shih-Hung Lin, Po-Wei Chi, “Effect of Annealing and Thickness of Co40Fe40Yb20 Thin Films on the Magnetic, Electrical, Adhesive, Nanomechanical, and Optical Properties on Glass Substrate”, Materials, Vol. 15 (23)8509, Dec. 2022 (SCIE, 2021 IF=3.748, METALLURGY & METALLURGICAL ENGINEERING: 18/79=22.8%)
16. Wen-Jen Liu, Yung-Huang Chang, Yuan-Tsung Chen*, Po-Chun Chiu, Yu-Zhi Wang, Shih-Hung Lin, and Po-Wei Chi, “Annealing Effect on the Structural, Magnetic, Electrical, Optic Property, Nanomechanical, and Adhesive Characteristics of Co60Fe20Yb20 Thin Films on Glass Substrate”, Coatings, Vol.12 (11), 1753, Nov. 2022 (SCIE, 2021 IF=3.236, PHYSICS, APPLIED: 66/161=41.0%)
17. Wen-Jen Liu, Yung-Huang Chang, Yuan-Tsung Chen, Po-Chun Chiu, Jian-Cheng Guo, Shih-Hung Lin, and Po-Wei Chi, “Effects of Annealing and Thickness of Co60Fe20Yb20 Nanofilms on Their Structure, Magnetic Properties, Electrical Efficiency, and Nanomechanical Characteristics”, Materials, Vol.15 (15), 5184, July 2022 (SCIE, 2021 IF=3.748, METALLURGY & METALLURGICAL ENGINEERING: 18/79=22.8%)
18. Wen-Jen Liu, Yung-Huang Chang, Chi-Lon Fern, Yuan-Tsung Chen*, Bo-Jia Huang, Shuo-Ting Hsu, Shih-Hung Lin, Te-Ho Wu, Po-Wei Chi, Ko-Wei Lin, “Annealing Effect on the Structure, Magnetic characteristic, Surface Energy and Optical Property of Co40Fe40W10B10 Thin Films” , Optik, Volume 259, 168985, June 2022 (SCIE, 2020 IF=2.443, OPTICS: 47/99=47.47%)
19. Shih-Hung Lin, Chi-Hang Siu, Yuan-Ting Wang, and Yao-Chin Wang*, “Optoelectronics inspection of amorphous In-Ga-Zn-O based active-matrix thin-film transistor for foldable device applications”. Sensors and Materials, Vol. 34, No. 5 (2022), 2007-2013, May 2022 (SCIE, 2020 IF=0.759, INSTRUMENTS & INSTRUMENTATION: 59/64=92.1%)
20. Wen-An Lai+, Shih-Hung Lin+ and Yao-Chin Wang*, “Arduino-based Portable Evaluation System for Dysphagia,” Sensors and Materials, Vol. 34, No. 5 (2022), 1943-1948, May 2022 (SCIE, 2020 IF=0.759, INSTRUMENTS & INSTRUMENTATION: 59/64=92.1%)
21. Shih-Hung Lin, Rong-Hwei Yeh, Chen Chu, and Ruei-Sung Yu*, “Effects of Mg doping on structural and optoelectronic properties of p-type semiconductor CuCrO2 thin films”, Materials Science in Semiconductor Processing, Volume 139, 106346, March 2022 (SCIE, 2020 IF=3.927, Engineering, Electrical & Electronic: 65/273=23.8%)
22. Wen-Jen Liu, Yung-Huang Chang, Chi-Lon Fern, Yuan-Tsung* Chen, Ding-Yang Tsai, Chin-Chieh Lin, Shih-Hung Lin, Te-Ho Wu, Po-Wei Chi, and Ko-Wei Lin, “Yttrium addition and Annealing Effect on the Structural, Magnetic, Adhesive, and Optical properties of CoFeY Thin Films on Glass Substrate”, Optik, Volume 251, 168406, Feb. 2022 (SCIE, 2020 IF=2.443, Optics: 46/99=23.8%)

23. Shih-Hung Lin*, Chun-Hsu Shen, and Cheng-Che Ho, “Dielectric Performance and Physical Characterization of (Mg0.6Zn0.4)0.95Ni0.05TiO3 Ceramics with ATiO3 (A=Ca, Sr) Additions for Microwave Applications”, Journal of Materials Science: Materials in Electronics, Vol. 32 (23), 27913-27922, Dec. 2021(SCIE, 2020 IF=2.478, ENGINEERING, ELECTRICAL & ELECTRONIC: 138/273=50.5%)
24. Li-Wei Chao, Jian-Fu Tang, Shih-Hung Lin, Yi-Ting Lee, Yi-Lun Chen, Cheng-Ho Hsieh, Lung-Chien Chen, and Zong-Liang Tseng*, “Facile Room-Temperature Synthesis of Highly Air-Stable and Moisture-Resistant CsPbX3/SiO2 Nanocomposites for Tunable White Light-Emitting Diodes”, Materials Science in Semiconductor Processing, Vol. 136, 106158, Dec. 2021 (SCIE, 2020 IF=3.927, Engineering, Electrical & Electronic: 65/273=23.8%)
25. Wen-Jen Liu, Yung-Huang Chang, Chi-Lon Fern, Yuan-Tsung Chen*, Tian-Yi Jhou, Po-Chun Chiu, Shih-Hung Lin, Ko-Wei Lin and Te-Ho Wu, “Annealing Effect on the Contact Angle, Surface Energy, Electric Property, and Nanomechanical Characteristics of Co40Fe40W20 Thin Films”, Coatings, Vol.11 (11), 1268, Oct. 2021 (SCIE, 2020 IF=2.881, PHYSICS, APPLIED: 70/160=43.8%)
26. Wen-Jen Liu, Yung-Huang Chang, Yuan-Tsung Chen*, Ding-Yang Tsai, Pei-Xin Lu,Shih-Hung Lin, Te-Ho Wu, and Po-Wei Chi, “Effect of Yttrium Addition on Structure and Magnetic Properties of Co60Fe20Y20 Thin Films”, Materials, Vol.14 (20), 6001, Oct. 2021 (SCIE, 2020 IF=3.623, METALLURGY & METALLURGICAL ENGINEERING: 17/80=21.25%)
27. Wen-Jen Liu, Yung-Huang Chang*, Yuan-Tsung Chen*, Chun-Yu Chang, Jian-Xin Lai,Shih-Hung Lin, Te-Ho Wu, Po-Wei Chi, “Annealing Effect on the Characteristics of Co40Fe40W10B10 Thin Films on Si(100) Substrate”, Materials, Vol.14 (20), 6017, Oct. 2021 (SCIE, 2020 IF=3.623, METALLURGY & METALLURGICAL ENGINEERING: 17/80=21.25%)
28. Chung-Long Pan, Chun-Hsu Shen, Shih-Hung Lin*, and Zi-Qi Lin, “Tunable Microwave Dielectric Properties of Ca0.6La0.8/3TiO3 and Ca0.8Sm0.4/3TiO3 Modified–(Mg0.6Zn0.4)0.95Ni0.05TiO3 Ceramics with a Near-Zero Temperature Coefficient”, Molecules, Vol.26 (16), 4715, Aug. 2021 (SCIE, 2020 IF=4.411, Chemistry, Multidisciplinary: 63/178=35.2%)
29. Shih-Hung Lin*, Zi-Qi Lin, and Yu-Ru Wu, “Microstructure and Microwave Dielectric Properties of Low-Temperature Sintering Ca5-yLi2yNi4(VO4)6 Ceramics”, ECS Journal of Solid State Science and Technology, Vol. 10, No.7, 073008, July 2021 (SCIE, 2020 IF: 2.07, PHYSICS, APPLIED: 97/160=60.6%)
30. Shih-Hung Lin*,Zi-Qi Lin, and Chi-Wei Chen, “Microwave dielectric characterization of Ca0.6(La1-xYx)0.2667TiO3 perovskite ceramics with high positive temperature coefficient” Ceramics International, Volume 47, Issue 12, Pages 16828-16832, June. 2021 (SCI, 2019 IF: 3.83, MATERIALS SCIENCE, CERAMICS: 2/28=7.1%)
31. Ying-Fu Su+,Shih-Hung Lin+,Sin-Liang Ou, and Yao-Chin Wang*, “Development and research of simple portable blood glucose measuring devices”, Sensors and Materials, Volume 33, No. 6(2021), 1809-1815, June. 2021 (SCI, 2019 IF=0.599, INSTRUMENTS & INSTRUMENTATION: 59/59=92.1%
32. Chun-Hsu Shen, Chung-Long Pan,Shih-Hung Lin* and Cheng-Che Ho, “Microwave performance, microstructure and Crystallization of ultralow loss (Mg0.6Zn0.4)1-yNiyTiO3 Ilmenite ceramics”, Applied Science, Vol 11 (7), 2952, March 2021 (SCI, 2019 IF: 2.474, Engineering, Multidisplenery: 32/91=35.1%)
33. Zong-Liang Tseng*,Shih-Hung Lin,Jian-Fu Tang, Yu-Ching Huang, Hsiang-Chih Cheng, Wei-Lun Huang, Yi-Ting Lee and Lung-Chien Chen, “ Polymeric Hole Transport Materials for Red CsPbI3 Perovskite Quantum-Dot Light-Emitting Diodes”, Polymers, Vol.13 (6), 896, March 2021 (SCI, 2019 IF=3.426, Polymer science : 16/86=17.9%)
34. Chun-Hsu Shen, Chung-Long Pan and Shih-Hung Lin*, “ A Study of the Effect of Sintering Conditions of Mg0.95Ni0.05Ti3 on its Physical and Dielectric Properties”, Molecules, Vol.25 (24), 5988, Dec. 2020 (SCI, 2019 IF=3.27, Chemistry, Multidisciplinary: 70/177=39.5%)
35. Yuan-Bin Chen, Zong-Liang Tseng, Lung-Chien Chen, Chien-Chi Lin, Hsin-Yuan Miao, Jih-Hsin Liu and Shih-Hung Lin*, “Crystal structure and microwave dielectric properties of [(Mg0.6Zn0.4)0.95Co0.05]2TiO4-modified Ca0.6La0.8/3TiO3 cordierite ceramics with a near-zero temperature coefficient”, Journal of Materials Science: Materials in Electronics, Vol.29 (13), pp 10709-10714, July 2018 (SCI, 2017 IF: 2.324, ENGINEERING, ELECTRICAL & ELECTRONIC: 100/260=38.5%)
36. You-Lin Wu, Jing-Jenn Lin, Shih-Hung Lin*, and Yi-Hsing Sung, “Double-Trap Model for Hysteretic Current-Voltage Characteristics of a Polystyrene/ZnO Nanorods Stacked Layer”, Solid-state Electronics, Vol.137, pp 58-61, Nov 2017. (SCI, 2017 IF: 1.67, ENGINEERING, ELECTRICAL & ELECTRONIC: 141/260=54.2%)
37. Jing-Jenn Lin, Shih-Hung Lin, and You-Lin Wu*, “Resistive switching in a metal-insulator-metal device with gamma-APTES as the insulator layer”, Solid-state Electronics, Vol.136, pp 86-91, Oct 2017. (SCI, 2017 IF: 1.67, ENGINEERING, ELECTRICAL & ELECTRONIC: 141/260=54.2%)
38. Shih-Hung Lin* and Yuan-Bin Chen*, “Structure and characterization of B2O3 modified yNd(Mg1/2Ti1/2)O3-(1-y)Ca0.8Sr0.2TiO3 ceramics with a near-zero temperature coefficient at microwave frequency”, Ceramics International, Volume 43, Issue 2, Feb. 2017, Pages 2368-2371 (SCI, 2017 IF: 3.06, MATERIALS SCIENCE, CERAMICS: 2/27=7.4%)

39. Shih-Hung Lin*, and Yuan-Bin Chen*, “Crystal structure and microwave dielectric properties of [(Mg0.6Zn0.4)0.95Co0.05]2TiO4 modified Ca0.8Sm0.4/3TiO3 ceramics”, Ceramics International, Volume 43, Issue 1, Part A, January 2017, Pages 296–300 (SCI, 2016 IF: 2.99, MATERIALS SCIENCE, CERAMICS: 2/26=7.7%)
40. Shih-Hung Lin, and Tzu-Huan Cheng*, “Interface Characterization of Nanometer Scale CdS Buffer Layer in Chalcopyrite Solar Cell”, Japanese Journal of Applied Physics, Publication issue: Vol. 55, No. 6S1, June 2016 (SCI, 2015 IF: 1.12, Physics applied Ranking: 97/145=66.9%)
41. Bing-Jing Li, Sih-Yin Wang, Yi-hong Liao, Shih-Hung Lin and Yuan-Bin Chen*,“High dielectric constant and low loss microwave dielectric ceramics of (1-y)(Mg0.95Co0.05) 2(Ti0.95Sn0.05)O4 - y(Ca0.61Nd0.8/3)TiO3 for microwave applications”, Journal of the Ceramic Society of Japan, Vol. 124 (Apr. 2016) No. 4, P460-463 (SCI, 2014 IF=0.7, MATERIALS SCIENCE, CERAMICS: 11/26=42.3%)
42. Bing-Jing Li, Sih-Yin Wang, Guo-Jhe Hong , Shih-Hung Lin and Yuan-Bin Chen*,“Low loss dielectric material system of (1-x)(Mg0.95Co0.05)2(Ti0.95Sn0.05)O4-x(Ca0.8Sm0.4/3)TiO3 at microwave frequency with a near-zero temperature coefficient of the resonant frequency”, Journal of the Ceramic Society of Japan, Vol. 124 (Mar. 2016) No. 3, P208-212 (SCI, 2014 IF=0.7, MATERIALS SCIENCE, CERAMICS: 11/26=42.3%)
43. Bing-Jing Li, Sih-Yin Wang, Chen-Yu Chiu, Shih-Hung Lin and Yuan-Bin Chen*, “Dielectric properties and mixture behavior of y(Mg0.95Co0.05)4Ta2O9-(1-y)CaTiO3 ceramic system at microwave frequency”, Journal of alloy and compound, Volume, 661, 15 March 2016, Pages 357-362 (SCI, 2014 IF=2.99, METALLURGY & METALLURGICAL ENGINEERING: 4/74=5.4%)
44. Bing-Jing Li, Sih-Yin Wang, Shih-Hung Lin and Yuan-Bin Chen*,“Dielectric properties and crystal structure of (Mg0.95Ni0.05)4(Nb1-xTax)2O9 ceramics”, Journal of the Ceramic Society of Japan, Vol. 124 (Feb 2016) No. 2, P140-144 (SCI, 2014 IF=0.7, MATERIALS SCIENCE, CERAMICS: 11/26=42.3%)
45. Bing-Jing Li, Sih-Yin Wang, Guo-Jhe Hong , Shih-Hung Lin and Yuan-Bin Chen*,“Effect of Mn2+ substitution on microwave dielectric properties of (Mg1-xMnx)2(Ti0.95Sn0.05)O4 ceramics”, Journal of the Ceramic Society of Japan, Vol. 123 (Nov 2015) No. 1443, P1027-1031 (SCI, 2014 IF=0.7, MATERIALS SCIENCE, CERAMICS: 11/26=42.3%)
46. Shih-Hung Lin, You-Lin Wu*, Yu-Huei Hwang , and Jing-Jenn Lin ,“Study of Radiation Hardness of HfO2-based Resistive Switching Memory at Nanoscale by Conductive Atomic Force Microscopy”, Microelectronics reliability, Volume 55, Issue 11, November 2015, Pages 2224–2228 (SCI, 2014 IF=1.43, ENGINEERING, ELECTRICAL & ELECTRONIC: 107/249=43%)
47. Chun-Hsu Shen*, Shih-Hung Lin, and Chung-Long Pan,“ Structure, Dielectric Properties, and Applications of (Na0.5Sm0.5)TiO3-Modified (Mg0.95Ni0.05)TiO3 Ceramics at Microwave Frequency”, Materials Research Bulletin, 65 (2015) 169–174 (SCI, 2014 IF=2.29, MATERIALS SCIENCE, MULTIDISCIPLINARY: 67/260=25.5%)
48. Shih-Hung Lin, Tzu-Huan Cheng*“ Defect Analysis of Monolithic GaInP/GaInAs/Ge Triple-Junction Solar Cells by Luminescence Technology” ECS Transactions, 64 (15) 27-33 (2014) (EI)
49. Tzu-Huan Cheng*, Shih-Hung Lin,“ Detail Analysis of External Quantum Efficiency Measurement for Tandem Junction Solar Cells” ECS Transactions, 64 (15) 47-57 (2014) (EI)
50. Chung Long Pan*, Chun Hsu Shen, Wei Cheng Lin, Shih-Hung Lin “Effect of B2O3 Glass on the Sintering and Microwave Dielectric Properties of MgTiO3–CaTiO3”, Applied Mechanics and Materials, Volume 666, pp 27-30, Oct 2014. (EI)
51. Chun Hsu Shen* , Chung Long Pan, Shih-Hung Lin, Wei Cheng Lin, Sheng Kai Huang “Low-Fire Processing (1-x)Mg0.95Co0.05TiO3 - xCa0.6La0.8/3TiO3Microwave Dielectric Ceramics”, Applied Mechanics and Materials, Volume 664, pp 14-17, Oct 2014. (EI)
52. Chung Long Pan * , Ping Cheng Chen, Tsu Chung Tan, Wei Cheng Lin, Chun Hsu Shen, Shih-Hung Lin “Low-Temperature Sintering and Microwave Dielectric Properties of CaWO4-Mg2SiO4 Ceramics”, Advanced Materials Research, Volume 933, pp 12-16, May 2014. (EI)
53. Yi-Lin Yang, Wenqi Zhang, Tzu-Sung Yen, Jia-Jian Hong, Jie-Chen Wong, Chao-Chen Ku, Tai-Hsuan Wu, Tzuo-Li Wang, Chien-Yi Li, Bing-Tze Wu, Shih-Hung Lin, and Wen-Kuan Yeh “Examination of hot-carrier stress induced degradation on fin field-effect transistor”, APPLIED PHYSICS LETTERS, Vol 104, 083505, Feb 2014. (2013 IF=3.515, Physics applied:14/108)

54. Shih-Hung Lin, J. Y. Feng, M. L. Lee, Tai-Ping Sun, T. S. Lay, Chieh-Hsiung Kuan* “Double-barrier Superlattice Infrared Photodetector integrated with multiple quantum-well infrared photodetector to improve performance”, International Journal of Electrochemical Science, 7(2012) 5746-5753, (2011 IF=3.73, ELECTROCHEMISTRY: 9/27)
55. Shih-Hung Lin, J. Y. Feng, M. L. Lee, J. H. Lu, Tai-Ping Sun, T. S. Lay, Chieh-Hsiung Kuan*, “The mechanism of carrier transportation in Superlattice Infrared Photodetector sandwiched by Front and Rear Barriers”, International Journal of Electrochemical Science, 7(2012) P937-945, , (2011 IF=3.73, ELECTROCHEMISTRY: 9/27)
56. Shih-Hung Lin, J. Y. Feng, Jen-Hsiang Lu, Kun-Jheng Wu, T. S. Lay, Chieh-Hsiung Kuan*, “Device performance and photocurrent resonance in Double-Barrier Superlattice Infrared Photodetectors”, Journal of the Electrochemical Society, Vol.158, No.4., PP. H370-H373., Feb 2011 ( 2011 IF=2.59, Materials Science, coating and films: 1/18)
57. C. L. Huang, Shih-Hung Lin, Shih-Sheng Liu, Yuan-Bin Chen, “Microwave delectric properties of x(Mg0.7Zn0.3)0.95Co0.05TiO3-(1-x)Ca0.8Sr0.2TiO3 ceramics with a zero temperature coefficient of resonant frequency ”, Journal of Alloys and Compounds, Vol.503 (2),pp 392-396,Aug 2010. ( IF=2.29,Metallurgy engineering: 5/70)
58. C. L. Huang, Shih-Hung Lin, Y. B. Chen, “New dielectric material system of Nd (Mg1/2Ti1/2) O3 –CaTiO3 with V2O5 addition for microwave applications”, Journal of Alloys and Compounds, Vol.489 (2), pp 541-544, Jan 2010. ( IF=2.29,Metallurgy engineering: 5/70)
59. C. L. Huang, Shih-Hung Lin, Shih-Sheng Liu, Y. B. Chen, “x(Mg0.7Zn0.3)0.95Co0.05TiO3- (1-x)(La0.5Na0.5)TiO3 Ceramic at Microwave Frequency with a Near Zero Temperature Coefficient of Resonant Frequency”, Journal of Alloys and Compounds, Vol.489 (2),pp 719-721,Jan 2010. ( IF=2.29,Metallurgy engineering: 5/70)
60. C. L. Huang, Y. B. Chen , Shih-Sheng Liu, Shih-Hung Lin, “MICROSTRIP RING RESONATOR BANDPASS FILTERS USING CERAMIC SUBSTRATE”, MICROWAVE AND OPTICAL TECHNOLOGY LETTERS / Vol. 52, No. 1, January 2010. (IF=0.7 optics: 44/64)
61. Y. B. Chen, C. L. Huang, Shih-Hung Lin, “The effect of deposition temperature and chamber pressure on the electrical and physical properties of the MgTiO3 thin films”, Journal of Alloys and Compounds, Vol.480 (2), pp 897-902, AUG 2009. ( IF=2.29,Metallurgy engineering: 5/70)
62. C. L. Huang, Y. B. Chen, Shih-Hung Lin, “New dielectric material system of Mg0.95Co0.05TiO3 −Zn0.975Ca0.025TiO3 at microwave frequencies”, Journal of Alloys and Compounds, Vol.477 (2), pp 712-715, May 2009. (IF=2.29,Metallurgy engineering: 5/70)
63. Tzu-Ming Liu, Ja-Yu Lu,Hung-Ping Chen,Chung-Chiu Kuo,Meng-Ju Yang, Chih-Wei Lai, Pi-Tai Chou, Ming-Hao Chang, Hsiang-Lin Liu, Yu-Tai Li, Ci-Ling Pan, Shih-Hung Lin, Chieh-Hsiung Kuan, and Chi-Kuang Sun,” Resonance-enhanced dipolar interaction between terahertz photons and confined acoustic phonons in nanocrystals”, APPLIED PHYSICS LETTERS, Vol92, 093122 ,May 2008. (IF=3.7, Physics applied:14/108)
64. Y. B. Chen, C. L. Huang, Shih-Hung Lin, “Influence of ZnO additions to 0.8(Mg0.95Co0.05)TiO3-0.2Ca(0.6)La(0.8/3)TiO(3) ceramics on sintering behavior and microwave dielectric properties”, MATERIALS LETTERS, Vol. 60 (29-30), pp3591-3595, DEC 2006. (IF=1.75 Material science: 51/214)
65. Y. B. Chen, C. L. Huang, Shih-Hung Lin, “Planar compact, broad-stopband elliptic-function lowpass filters using high-permittivity ceramic substrate”, MICROWAVE AND OPTICAL TECHNOLOGY LETTERS, Vol.48 (7),pp 1432-1436, JUL 2006. (IF=0.7, optics: 44/64)
66. C. L. Huang, Y. B. Chen, Shih-Hung Lin, “New dielectric material system of Nd (Mg1/2Ti1/2)O3-CaTiO3 at microwave frequency”, SOLID-STATE ELECTRONICS , Vol.49 (12),pp 1921-1924, DEC 2005. ( IF=1.4 Electrical & electronics engineering: 73/246)

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